Soundstream Technologies REF1.500 User Manual

Don’t be a fool by throwing away this manual! Grab a couple brews, sit on your butt & READ THIS! You  
will NOT be able to set this amplifier properly unless you thoroughly understand the sophisticated pre-  
amp section of the amplifier. You are now the owner of what may be the finest car audio amplifier ever  
made. Please read this manual in its entirety. These brand new, long-awaited Reference amplifiers are  
the finest amplifiers we have ever produced and they WILL change the way you hear and feel music…  
REF1.500  
REF1.1000  
REF2.370  
REF2.640  
REF4.400  
REF4.760  
REF4.920  
Reference Lives!  
Can you believe that it has been over a decade since the legendary Soundstream Reference amps graced the car  
audio industry?! Maybe you bought this amplifier because the best amplifier you ever had was a Reference from back in  
the day. Maybe you bought it for its legendary performance. Regardless of the reason, we know you’ll love your new SS  
Ref & will appreciate its unparalleled quality.  
When we first decided to reintroduce the coveted amplifiers, we just wanted something as fine as the originals.  
They were finer than most amplifiers in the marketplace today. After failing to deliver for a couple of years, we decided  
to hold back until we were 100% certain that there was nothing else we could do to make the amplifiers any better.  
Many crappy clone amps popped up in Germany and Asia, but none were real Soundstream Reference amplifiers, and  
they certainly did not come from us. We feel confident that we came up with everything you’d ever want. The preamp  
controls are extensive. The circuitry is very advanced. Even the painstaking task of making sure every board trace is in  
the perfect location yielded phenomenal results – damping factors from >1500 to >3000! Don’t fall for the foolish tale  
that this doesn’t matter! The ability of an amplifier to accurately control the speaker is of critical importance! Duh!  
Most amplifier manuals get thrown in the trash or never even make it out of the box. The new Ref amps are very  
sophisticated and the silk screening on the front of the amplifier cannot begin to unfurl the powers of the new preamp  
sections. It would not be wise to ditch this manual without thoroughly reading it over first. So grab a beer, a glass of  
wine or a stupid latte and take a few minutes to chill out and absorb the intensity of the new SS Refs. Actually, if you are  
reaching for a latte, you’re a fruitcake and do not deserve this amplifier. Grow a pair! Grab a 6-pack of your favorite mi-  
crobrew and read the freakin’ manual!!  
*Note – while drinking some great beer is one of life’s greatest pleasures, please do not drink the whole 6-pack and attempt to work with electron-  
ics. Drinking fizzy, yellow light beer is for wussies and will probably make your amplifier spontaneously combust. Seriously, it happens. Sound-  
stream engineers are willing to install your amplifier for you if you send them a plane ticket for two and cover all expenses, including great beer.  
3
Features  
In the 80s, it became popular to use acronyms for amplifier features and technologies. In some cases, these acronyms  
were nothing more than fancy words put together cleverly to form an acronym not worth its weight in poop! Sales people  
memorized the silly acronyms but rarely knew what the feature encompassed. The features below are straight forward  
facts about the amplifiers that make them yield audio nirvana.  
General:  
Full Signal Path Low Noise/Distortion Circuitry Topology  
Optimal Component Layout for Minimal Distortion Induction & Signal Separation  
Full Differential Feedback Surrounding Power-Amp Stages directly from Speaker Terminals resulting in Uncolored  
Sound Reproduction and Elimination of Ground Loops  
Differential Drives Divide Pre-Amp & Power-Amp Stages, Eliminating Ground Looping  
Triple Darlington Audio Output Stages  
Output Stage Bias Individually Sequenced, Optimizing Sound Quality  
Close Tolerance Signal Path Components - 1% Resistors & 5% Capacitors  
Stout 2 Oz. Copper Traces Effortlessly Transfer High Volume Internal Current  
Differential RCA Inputs Isolate 12V/Audio to Ground, Eliminating Ground Loops and Noise  
Sequenced Delays Eliminate Residual Power-Up/Power-Down Pops  
Final PCB Layout Designs are a culmination of examination and fine tuning of all circuit elements to work in harmony  
as a whole  
Hawkins Boost Control - Proprietary Bass Equalization  
Continuously Variable Crossovers  
Tri-Mode Capable  
4
PSU  
Pulse Width Modulated  
Large TO218 MOSFET Transistors  
High Volume, Low ESR Capacitance Banks Compensate Power Supply Ripple Currents  
Extra Low Current Drive Stage Increases Efficiency & Sound Clarity  
Individually Regulated Preamp/Crossover Power Supplies Ensure Signal Purity  
Separated Capacitor Charging/Discharging Current Paths Prevent Rail Switching Spikes & Ground Traces from En-  
tering Signal Stages Resulting in Distortion  
Mono-block Models:  
True Class G Circuitry and Regulated MOSFET Power Supply. This allows the Subwoofer Amplifiers to Yield the  
Same POWER at 1-2 ohms, and Regardless of Operating DC Voltage. (You can use almost any amount of woofers,  
and of any impedance, and wire it to the amplifier safely! See the options in the back of the manual…)  
Common Specifications  
Bass Boost 0-12dB 30Hz - 80Hz  
Input Sensitivity 0.2V - 9V  
Total Harmonic Distortion <0.02%  
Supply Voltage 11-15VDC  
Stereo Stability 2 Ohms  
Bridged Stability 4 Ohms  
Monoblock Stability 1 Ohm  
Input Impedance 10k Ohms  
5
REF2.370  
2
REF2.640  
2
REF4.400  
4
REF4.760  
4
REF4.920  
4
REF1.500  
REF1.1000  
1
S P E C I F I C A T I O N S  
Channels  
1
-
RMS Power @ 4, 14.4V  
2 x 110  
2 x 185  
1 x 370  
-
2 x 190  
2 x 320  
1 x 640  
-
4 x 70  
4 x 100  
2 x 200  
-
4 x 115  
4 x 155  
2 x 380  
-
4 x 145  
4 x 215  
2 x 460  
-
-
RMS Power @ 2, 14.4V  
500  
1000  
-
RMS Power @ 4Bridged, 14.4V  
RMS Power @ 1, 14.4V  
-
500  
1000  
0.02%  
15-200Hz  
102dB  
>2000  
Total Harmonic Distortion (4power)  
Frequency Response  
0.02%  
15-50kHz  
102dB  
>3000  
0.02%  
15-50kHz  
102dB  
>1500  
0.02%  
15-50kHz  
102dB  
>2000  
0.02%  
15-50kHz  
102dB  
>3000  
0.02%  
15-50kHz  
104dB  
>2000  
0.02%  
15-200Hz  
102dB  
>2000  
Signal-to-Noise Ratio (4power)  
Damping Factor (100Hz, 4)  
Dimensions: 2.25"h x 9.875"w  
55mm x 250mm  
13.58"  
345mm  
15.94"  
405mm  
16.06"  
408mm  
20.25"  
514.5mm  
22.81"  
579.5mm  
14.05"  
357mm  
18.17"  
461.5mm  
Ch. 1&2 HPF/Hawkins/Subsonic  
(12dB Slope / 0-10dB Hawkins Boost)  
15-240Hz or  
275-4.1kHz  
15-210Hz or  
260-4kHz  
15-240Hz or  
240-4.1kHz  
15Hz-4kHz  
-
15Hz-4kHz  
-
-
-
50-210Hz or  
820-4kHz  
50-250Hz or  
820-4.7kHz  
Channels 1&2 LPF (12dB Slope)  
Channels 3&4 HPF (12dB Slope)  
Channels 3&4 LPF (12dB Slope)  
-
50-200Hz  
50-200Hz  
15-220Hz or  
255-4.1kHz  
-
-
-
-
15Hz-1kHz  
55Hz-4.3kHz  
15Hz-4kHz  
50Hz-4kHz  
-
-
-
-
50-250Hz or  
800-3.8KHz  
Subsonic Filter Slope 12dB  
Phase Control Switch  
Remote Gain Control  
-
-
-
-
-
-
-
-
-
24dB 15-50Hz  
0 or 1800  
Included  
80  
24dB 15-50Hz  
0 or 1800  
Included  
150  
-
-
-
-
-
-
External Fuse Required  
40  
80  
50  
80  
100  
6
Installation  
Before installing any audio equipment, it is good practice to disconnect the ground terminal on the battery to avoid dam-  
age to the vehicle or audio equipment. Failure to do this means you’re a few brews short of a 6-pack and you probably  
already acquired the nickname of “Sparky” or “Smokey”. Not cool! Do NOT hook the ground cable back up to the bat-  
tery until the rest of the wiring is complete.  
Factory ground wire may  
need to be upgraded, espe-  
cially if it is smaller than the  
Positive  
battery  
terminal  
power wire, frayed, or broken.  
Fuse must be  
installed within  
18” of battery.  
Run signal cables (RCA)  
and remote turn-on lead  
down the opposite side of  
Drill a hole in the firewall &  
the vehicle of the power  
use a rubber grommet to  
wire to avoid radiated noise.  
keep wire from shorting.  
Run the cables under the  
carpet near the side of the  
vehicle. Be careful not to  
drill or screw into the  
wires when replacing trim.  
Avoid sharp edges  
that could chafe  
through the insulation.  
Ground cable to  
bare metal chassis/  
frame with nut &  
bolt. No screws or  
seat/seatbelt bolts!  
7
Controls and Terminals  
REF2.370  
REF2.640  
8
REF4.400  
REF4.760  
REF4.920  
9
Controls and Terminals  
REF1.500  
REF1.1000  
10  
Control Definitions  
Alrighty, here comes the fun stuff. We’re going to break this down to it simplest form so that there is no way you  
can possibly do any damage in the installation process to your audio system. We’re going to explain in detail how every  
single knob and switch work rather than turn you loose on a sophisticated amplifier and have problems. READ EVERY-  
THING! Trust us, it’ll be worth it… Before you do anything, undo the ground cable from the battery.  
Power Terminal Block  
GND – This is the Ground connection. Bolt the Ground cable to a bare metal part of the chassis/frame. Do NOT  
us self-tapping screws or seat/seatbelt bolts!  
+12V – This is the Power Connection. This cable gets connected directly to the battery. You MUST use a fuse  
holder or circuit breaker within 18” of the battery. All cables ran through the firewall must be protected by a rub-  
ber or plastic grommet. If you have multiple amplifiers, the main fuse or circuit breaker at the battery should be  
the sum of all fuses or slightly less.  
REM – This is the remote Turn-On connection. Connect to the amplifier output or power antenna output of the  
source unit. If the unit does not have a switched +12V output, you can use another switchable +12V.  
Speaker Terminal Block  
This is the Speaker(s) Connection. All components, coaxials and subwoofers connect here.  
Crossovers  
These controls allow you to pass and block frequencies to each driver. This is one of the most important parts  
of tuning any audio system.  
LOW PASS – This control allows you to pass only frequencies lower than the frequency you choose to the driv-  
ers. For example, if you are powering a sub woofer and you choose 70Hz, then only 70Hz and lower tones will  
be passed through to the subs while all unwanted higher frequencies above 70Hz will be blocked.  
HIGH PASS - This control allows you to pass only frequencies higher than the frequency you choose to the driv-  
ers. High Pass crossover filters below 50Hz are also considered “subsonic” filters.  
Multiplier Switches – Sometimes you may need a range that is not within the range supplied by the control po-  
tentiometer. In this case, if the amplifier has a multiplier switch, the range can change to accommodate your  
needs. For example, let’s say you have a 4 channel amplifier and you want to put the tweeters (1”) on the front  
channels and the midbass (6.5”) on the rear channels, and use all electronic crossovers. You can set the High  
Pass for the tweeters at 4kHz. The low pass, if it as two ranges, may be from 50-800Hz which is not high  
enough. By using the multiplier switch, that same control can change the range from 50Hz-800Hz to 250Hz-  
4kHz. If this doesn’t make sense and you do not understand frequencies clearly, PLEASE TAKE YOUR AMP  
TO A PROFESSIONAL SOUNDSTREAM DEALER!  
11  
Crossovers (continued)  
HAWKINS – This is a patented circuit developed by Soundstream many years ago. Hawkins has 2 controls but 3  
functions. One of the controls is the boost and it is from 0-10dB. The second control is the frequency. What-  
ever frequency you select will be the frequency that is controlled by the adjustable boost. The third function is a  
tracking subsonic filter. Basically, at the frequency point you choose to boost, all lower frequencies will be  
blocked by the tracking subsonic filter to avoid damage to speakers. For example, your subwoofer starts to  
lose output at 50Hz. You can set the frequency to 40Hz and boost up to 10dB, but you do not have to worry  
about super low frequencies damaging your speakers because no music material below 40Hz will go to the  
subwoofers. Or, let’s say your subwoofer plays just fine, but at 20Hz tones it starts to flutter and get distorted.  
You can set the Hawkins at 20-25Hz and not use the boost, but still take advantage of the subsonic filter sub-  
woofer protection.  
Bass EQ – This circuit allows you to choose a frequency between 30Hz and 80Hz and boost that frequency by  
0-12dB.  
Xover Mode Switch – Select HP/FR for High Pass / Full Range and only the HIGH PASS functions will work. The  
High Pass filter is never off, but can be set to 15Hz which passes the entire audible spectrum to be reproduced.  
If you select LP/BP for Low Pass and Band Pass, then the LOW PASS function works as well. You can use the  
Low Pass in conjunction with the always-on High Pass to band pass the signal to the drivers. For example...  
Let’s say you have 3-way components consisting of a 1” tweeter, 4” midrange and a 6.5” midbass. Your 4” and  
1” are on another amplifier. You can set the midbass to play just the midbass frequencies by setting the LOW  
PASS to 400Hz and setting the high pass to 60Hz. This will effectively give you a dedicated midbass region  
that will not overlap into the midrange frequencies or subwoofer frequencies.  
Input Gain – While most people set this control by ear to how loud they want their music, this is not the intent of this  
control. The range is from 0.2 volts to 9 volts. The control is meant for matching to the source unit’s output sig-  
nal voltage. For example, if you have a unit with low output voltage, you would probably have the control set  
fairly high, towards the 0.2V range. A lot of head units have 4 volts of signal voltage which mean that your con-  
trol would be set in midway through the range. If you happen to have a line driver (signal booster) that yields 9  
volt or more, you will set the gain at the minimum position. In all of these examples, when properly level  
matched, the amplifier will put out full volume. Setting the control above the proper point may cause damage to  
the amplifier and speakers, and can result in poor sound quality and overall undesirable results…  
RCA Signal Inputs – Ummm… If you do not know what goes here, get over to your local Soundstream dealer  
immediately!  
12  
Balanced Signal Inputs – Using our BLT Balanced Line Transmitters, you can achieve balanced, noise-free signal  
transfer. This is a MUST and no-brainer for any audiophile, sound quality competitor, or anybody serious about  
their music.  
CH1&2 Signal Mode – There are two options here for the signal processing. You can either choose CH1&2 HP/FR  
for High Pass or Full Range operations, or you can choose COPY CH3&4 making channels 1&2 receive the  
same processing as channels 3&4. This is handy if you want channels 1&2 to be identical to 3&4 or if you need  
low pass or band pass signal. Understand that this bypasses EVERYTHING so that the front channels are iden-  
tical to the rear channels.  
Phase Switch – This switch changes the phase of the woofer from 0 to 180 degrees.  
Subsonic – Part of the Hawkins circuit, this is a patented circuit developed by Soundstream many years ago. Haw-  
kins has 2 controls but 3 functions. One of the controls is the boost and it is from 0-10dB. The second control is  
the frequency. Whatever frequency you select will be the frequency that is controlled by the adjustable boost.  
The third function is a tracking subsonic filter. Once the boost frequency is set, all frequencies below that point  
are blocked to prevent damage to the speakers. For example, your subwoofer starts to lose output at 50Hz.  
You can set the frequency to 40Hz and boost up to 10dB, but you do not have to worry about super low fre-  
quencies damaging your speakers because no music material below 40Hz will go to the subwoofers. Or, let’s  
say your subwoofer plays just fine, but at 20Hz tones it starts to flutter and get distorted. Hawkins can be set at  
25Hz and not use the boost, but still take advantage of the subsonic filter subwoofer protection.  
Remote Control – This the port for the Remote Control so you can use the supplied unit to control the gain from  
the front of the vehicle.  
Input Mode – When in 4CH mode, all 4 channels of signal are required and fadability is in effect. When in 2CH  
mode, only 2 channels of signal are required and CH1&3 get the same signal, and CH2&4 get the same signal.  
Fadability is lost in 2CH mode.  
13  
System Diagrams  
2 CHANNEL SYSTEM DESIGN #1  
REF2.370 / REF2.640  
2 - 4 Ohms  
2 - 4 Ohms  
2 CHANNEL SYSTEM DESIGN #2  
REF2.370 / REF2.640  
4 - 8 Ohms  
14  
2 CHANNEL SYSTEM DESIGN #3  
REF2.370 / REF2.640  
4 - 8 Ohms  
2 - 4 Ohms  
2 - 4 Ohms  
*Inductor and Capacitor passive crossovers must be at the  
same frequency or underlapped, but never overlapped. If  
this does not make sense, drop what you are doing and  
take your car to a professional Soundstream dealer!  
2 CHANNEL SYSTEM DESIGN #4  
REF2.370 / REF2.640  
4 - 8 Ohms  
4 - 8 Ohms  
4 - 8 Ohms  
4 - 8 Ohms  
15  
2 - 4 Ohms  
2 - 4 Ohms  
2 - 4 Ohms  
2 - 4 Ohms  
16  
2-4 Ohms  
4CH  
2-4 Ohms  
3CH  
SUB WOOFER  
4-8 Ohms  
2-4 Ohms  
2CH  
2-4 Ohms  
1CH  
SUB WOOFER  
4-8 Ohms  
*Inductor and Capacitor passive crossovers must be at the  
same frequency or underlapped, but never overlapped. If  
this does not make sense, drop what you are doing and  
take your car to a professional Soundstream dealer!  
17  
Subwoofer Wiring Diagrams  
Series-Parallel / Two Dual 2 Ohm  
Net Impedance = 2 Ohms  
Amp  
1-2 Ohms  
Parallel / Two Dual 4 Ohm  
Net Impedance = 1 Ohm  
Series-Parallel / Three Dual 2 Ohm  
Net Impedance = 1.33 Ohms  
Amp  
Amp  
Parallel / Two Single 4 Ohm  
Net Impedance = 2 Ohm  
Parallel / Three Single 4 Ohm  
Net Impedance = 1.33 Ohms  
Amp  
Amp  
18  
Subwoofer Wiring Diagrams  
Series-Parallel / Four Dual 2 Ohm  
Net Impedance = 1 Ohm  
Amp  
Series-Parallel / Four Dual 4 Ohm  
Net Impedance = 2 Ohm  
Amp  
Series-Parallel / Four Single 4 Ohm  
Net Impedance = 1 Ohm  
Amp  
19  
Troubleshooting  
SYMPTOM  
CHECK  
REMEDY  
Check all fuses to the amplifier  
Confirm remote turn-on lead is connected at the amp and at  
the radio/switched +12Volts  
Is the Status LED illuminated GREEN? NO?  
Clean contacts on fuse holder  
Verify ground is secure  
Check gain on amp  
NO SOUND  
Is the Status LED illuminated GREEN? Yes? Check source level volume  
Check for Speaker or wire short  
No power to power wire  
Poor Ground  
Re-secure power cable  
Must have bare metal ground  
AMP NOT SWITCHING ON  
Does remote wire have +12V  
Check fuses  
Check at source and amp  
Burnt, broken, detached?  
Check speaker wire  
Look for shorts, pinches or disconnected terminal  
NO SOUND ON ONE CHANNEL  
Swap left with right. If the bad side began working, the prob-  
lem is before the amplifier  
Check RCAs  
Verify that the load does not drop below the specified ohm  
level  
Wait for amp to cool down  
AMP SHUTS DOWN  
Check speaker load  
Check temperature  
Speakers shorted  
STATUS LED IS ON - RED  
Check to see if it is the wire or the speakers themselves  
Put smoke back inside  
Either you spilled your beer on it or did not read  
this manual and follow the directions  
SMOKE CAME OUT  
CAN’T KEEP THE OPPOSITE  
SEX OFF ME  
Is volume loud enough for others to hear?  
To avoid the opposite sex, buy a different brand of amplifier  
20  

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